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Alex Stancu5819a222019-11-13 13:58:45 +02001.. This work is licensed under a Creative Commons Attribution 4.0 International License.
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Alex Stancub4dd14f2019-11-14 17:54:13 +02003.. Copyright (C) 2019 highstreet technologies GmbH and others
Alex Stancu5819a222019-11-13 13:58:45 +02004
5
6sim/o1-interface Overview
Alex Stancu1af4aeb2021-04-15 15:47:31 +03007**************************
Alex Stancu5819a222019-11-13 13:58:45 +02008
Alex Stancu700ae442020-12-11 16:43:10 +02009Network Topology Simulator (NTS) | next generation
Alex Stancu1af4aeb2021-04-15 15:47:31 +030010--------------------------------------------------
Alex Stancu5819a222019-11-13 13:58:45 +020011
Alex Stancu1af4aeb2021-04-15 15:47:31 +030012The Network Topology Simulator is a framework that allows simulating Network Functions (NF) that expose a management interface via NETCONF/YANG.
Alex Stancu96526af2020-12-02 19:17:24 +020013
Alex Stancu1af4aeb2021-04-15 15:47:31 +030014Overview
15--------
Alex Stancu96526af2020-12-02 19:17:24 +020016
Alex Stancu1af4aeb2021-04-15 15:47:31 +030017The NETCONF/YANG management interface is simulated, and any YANG models can be loaded by the framework to be exposed. Random data is generated based on the specific models, such that each simulated NF presents different data on its management interface.
Alex Stancu96526af2020-12-02 19:17:24 +020018
Alex Stancu1af4aeb2021-04-15 15:47:31 +030019The NTS framework is based on several open-source projects
Alex Stancu96526af2020-12-02 19:17:24 +020020
Alex Stancu1af4aeb2021-04-15 15:47:31 +030021- `cJSON <https://github.com/DaveGamble/cJSON>`_
22- `libcurl <https://curl.haxx.se>`_
23- `libyang <https://github.com/CESNET/libyang>`_
24- `sysrepo <https://github.com/sysrepo/sysrepo>`_
25- `libnetconf2 <https://github.com/CESNET/libnetconf2>`_
26- `Netopeer2 <https://github.com/CESNET/Netopeer2>`_
Alex Stancu5819a222019-11-13 13:58:45 +020027
28The NTS Manager can be used to specify the simulation details and to manage the simulation environment at runtime.
29
Alex Stancu1af4aeb2021-04-15 15:47:31 +030030Each simulated NF is represented as a docker container, where the NETCONF Server is running. The creation and deletion of docker containers associated with simulated NFs is handled by the NTS Manager. The NTS Manager is also running as a docker container and exposes a proprietary NETCONF/YANG interface to control the simulation.
Alex Stancub4dd14f2019-11-14 17:54:13 +020031
Alex Stancu1af4aeb2021-04-15 15:47:31 +030032NTS Manager
33-----------
Alex Stancub4dd14f2019-11-14 17:54:13 +020034
Alex Stancu96526af2020-12-02 19:17:24 +020035The purpose of the NTS Manager is to ease the utilization of the NTS framework. It enables the user to interact with the simulation framework through a NETCONF/YANG interface. The user has the ability to modify the simulation parameters at runtime and to see the status of the current state of the NTS. The NETCONF/YANG interface will be detailed below.
Alex Stancub4dd14f2019-11-14 17:54:13 +020036
Alex Stancu1af4aeb2021-04-15 15:47:31 +030037::
Alex Stancub4dd14f2019-11-14 17:54:13 +020038
Alex Stancu1af4aeb2021-04-15 15:47:31 +030039 module: nts-manager
40 +--rw simulation!
41 +--ro available-images
42 | +--ro network-function-image* []
43 | +--ro function-type? identityref
44 | +--ro docker-image-name string
45 | +--ro docker-version-tag string
46 | +--ro docker-repository string
47 +--rw network-functions!
48 | +--rw network-function* [function-type]
49 | +--rw function-type identityref
50 | +--rw started-instances uint16
51 | +--rw mounted-instances uint16
52 | +--rw mount-point-addressing-method? enumeration
53 | +--rw docker-instance-name string
54 | +--rw docker-version-tag string
55 | +--rw docker-repository string
56 | +--rw fault-generation!
57 | | +--rw fault-delay-list* [index]
58 | | | +--rw index uint16
59 | | | +--rw delay-period? uint16
60 | | +--ro fault-count {faults-status}?
61 | | +--ro normal? uint32
62 | | +--ro warning? uint32
63 | | +--ro minor? uint32
64 | | +--ro major? uint32
65 | | +--ro critical? uint32
66 | +--rw netconf!
67 | | +--rw faults-enabled? boolean
68 | | +--rw call-home? boolean
69 | +--rw ves!
70 | | +--rw faults-enabled? boolean
71 | | +--rw pnf-registration? boolean
72 | | +--rw heartbeat-period? uint16
73 | +--ro instances
74 | +--ro instance* [name]
75 | +--ro mount-point-addressing-method? enumeration
76 | +--ro name string
77 | +--ro is-mounted? boolean
78 | +--ro networking
79 | +--ro docker-ip? inet:ip-address
80 | +--ro docker-ports* [port]
81 | | +--ro port inet:port-number
82 | | +--ro protocol? identityref
83 | +--ro host-ip? inet:ip-address
84 | +--ro host-ports* [port]
85 | +--ro port inet:port-number
86 | +--ro protocol? identityref
87 +--rw sdn-controller!
88 | +--rw controller-protocol? enumeration
89 | +--rw controller-ip? inet:ip-address
90 | +--rw controller-port? inet:port-number
91 | +--rw controller-netconf-call-home-port? inet:port-number
92 | +--rw controller-username? string
93 | +--rw controller-password? string
94 +--rw ves-endpoint!
95 | +--rw ves-endpoint-protocol? enumeration
96 | +--rw ves-endpoint-ip? inet:ip-address
97 | +--rw ves-endpoint-port? inet:port-number
98 | +--rw ves-endpoint-auth-method? authentication-method-type
99 | +--rw ves-endpoint-username? string
100 | +--rw ves-endpoint-password? string
101 | +--rw ves-endpoint-certificate? string
102 +--ro ports
103 | +--ro netconf-ssh-port? inet:port-number
104 | +--ro netconf-tls-port? inet:port-number
105 | +--ro transport-ftp-port? inet:port-number
106 | +--ro transport-sftp-port? inet:port-number
107 +--ro ssh-connections? uint8
108 +--ro tls-connections? uint8
109 +--ro cpu-usage? percent
110 +--ro mem-usage? uint32
111 +--ro last-operation-status? string
Alex Stancu700ae442020-12-11 16:43:10 +0200112
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300113 notifications:
114 +---n instance-changed
115 | +--ro change-status string
116 | +--ro function-type identityref
117 | +--ro name string
118 | +--ro is-mounted? boolean
119 | +--ro networking
120 | +--ro docker-ip? inet:ip-address
121 | +--ro docker-ports* [port]
122 | | +--ro port inet:port-number
123 | | +--ro protocol? identityref
124 | +--ro host-ip? inet:ip-address
125 | +--ro host-ports* [port]
126 | +--ro port inet:port-number
127 | +--ro protocol? identityref
128 +---n operation-status-changed
129 +--ro operation-status string
130 +--ro error-message? string
Alex Stancu700ae442020-12-11 16:43:10 +0200131
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300132Detailed information about the YANG attributes
133^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Alex Stancub4dd14f2019-11-14 17:54:13 +0200134
Alex Stancu96526af2020-12-02 19:17:24 +0200135Under **simulation** there are 3 configuration containers and a couple of statistics leafs:
Alex Stancu700ae442020-12-11 16:43:10 +0200136
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300137- **network-functions** - represents the simulation data, which will be best described below
138- **sdn-controller** - this container groups the configuration related to the ODL based SDN controller that the simulated devices can connect to:
139
140 - **controller-protocol** - SDN controller protocol (http/https)
141 - **controller-ip** - the IP address of the ODL based SDN controller where the simulated devices can be mounted. Both IPv4 and IPv6 are supported
142 - **controller-port** - the port of the ODL based SDN controller
143 - **controller-netconf-call-home-port** - the NETCONF Call Home port of the ODL based SDN controller
144 - **controller-username** - the username to be used when connecting to the ODL based SDN controller
145 - **controller-password** - the password to be used when connecting to the ODL based SDN controller
Alex Stancu700ae442020-12-11 16:43:10 +0200146
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300147- **ves-endpoint** - this container groups the configuration related to the VES endpoint where the VES messages are targeted:
Alex Stancu700ae442020-12-11 16:43:10 +0200148
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300149 - **ves-endpoint-protocol** - the protocol of the VES endpoint where VES messages are targeted (http/https)
150 - **ves-endpoint-ip** - the IP address of the VES endpoint where VES messages are targeted
151 - **ves-endpoint-port** - the port address of the VES endpoint where VES messages are targeted
152 - **ves-endpoint-auth-method** - the authentication method to be used when sending the VES message to the VES endpoint. Possible values are:
Alex Stancu700ae442020-12-11 16:43:10 +0200153
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300154 + *no-auth* - no authentication
155 + *cert-only* - certificate only authentication in this case the certificate to be used for the communication must be configured
156 + *basic-auth* - classic username/password authentication in this case both the username and password need to be configured
157 + *cert-basic-auth* - authentication that uses both username/password and a certificate all three values need to be configured in this case
158 +
159 - **ves-endpoint-username** - the username to be used when authenticating to the VES endpoint
160 - **ves-endpoint-password** - the password to be used when authenticating to the VES endpoint
161 - **ves-endpoint-certificate** - the certificate to be used when authenticating to the VES endpoint
162- **ports**: if any ports share the same number, the order is: netconf-ssh (all ports), netconf-tls (all ports), ftp (1 port), sftp (1 port):
Alex Stancu700ae442020-12-11 16:43:10 +0200163
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300164 - **netconf-ssh-port** - base port for NETCONF SSH
165 - **netconf-tls-port** - base port for NETCONF TLS
166 - **transport-ftp-port** - base port for FTP
167 - **transport-sftp-port** - base port for SFTP
Alex Stancu700ae442020-12-11 16:43:10 +0200168
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300169- **ssh-connections** - status node indicating the number of SSH Endpoints each network function instance exposes
170- **tls-connections** - status node indicating the number of TLS Endpoints each network function instance exposes
171- **cpu-usage** - status node indicating the **total** CPU usage of the simulation
172- **mem-usage** - status node indicating the **total** memory usage of the simulation
173- **last-operation-status** - indicates the status of last manager ran operation
Alex Stancub4dd14f2019-11-14 17:54:13 +0200174
Alex Stancu96526af2020-12-02 19:17:24 +0200175Under the **network-functions** there is the **network-function** list. This list is automatically populated by the NTS Manager at start time with the available network functions. No changes at the actual list are allowed (adding or removing elements), only the changes of the properties of the elements have effect. The structure of an element of this list is described below:
Alex Stancu700ae442020-12-11 16:43:10 +0200176
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300177- **function-type** - the function type
178- **started-devices** - represents the number of simulated devices. The default value is 0, meaning that when the NTS is started, there are no simulated devices. When this value is increased to **n**, the NTS Manager starts docker containers in order to reach **n** simulated devices. If the value is decreased to **k**, the NTS Manager will remove docker containers in a LIFO manner, until the number of simulated devices reaches **k**
179- **mounted-devices** - represents the number of devices to be mounted to an ODL based SDN Controller. The same phylosophy as in the case of the previous leaf applies. If this number is increased, the number of ODL mountpoints increases. Else, the simulated devices are being unmounted from ODL. The number of mounted devices cannot exceed the number of started devices. The details about the ODL controller where to mount/unmount are given by the **sdn-controller** container
180- **mount-point-addressing-method** - addressing method of the mount point. Possible values are:
181
182 + *docker-mapping* - [default value] future started simulated devices will be mapped on the Docker container
183 + *host-mapping* - future started simulated devices will me mapped on the host's IP address and port based on *base-port*
184- **docker-instance-name** - the prefix for future simulated devices (to this name a dash and an increasing number is added)
185- **docker-version-tag** - a specific version tag for the Docker container to be ran. if empty, the latest version is ran
186- **docker-repository** - the prefix for containing the Docker repository information. if local repository is used, value can be either blank or *local*
187- **fault-generation** - container which groups the fault generation features, explained later
188- **netconf** - container with settings for enabling or disabling netconf features:
Alex Stancu700ae442020-12-11 16:43:10 +0200189
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300190 - **faults-enabled** - enable or disable faults over netconf
191 - **call-home** - enable the NETCONF Call Home feature. If set to 'true', each simulated device, when booting up, will try to Call Home to the SDN Controller.
192- **ves** - container with settings for enabling or disabling VES features:
Alex Stancu700ae442020-12-11 16:43:10 +0200193
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300194 - **faults-enabled** - enable or disable faults over VES
195 - **pnf-registration** - enable PNF registration on start
196 - **heartbeat-period** - the number of seconds between VES heartbeat messages
Alex Stancu700ae442020-12-11 16:43:10 +0200197
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300198The **available-images** container has a list containing available (installed) simulations. The list corresponds (has the same name, and specific leafs) to the **network-function** list inside **simulation**, and the description is the same. This list is populated by the Manager at runtime after it checks which Docker images are pulled, including having multiple versions (both in tag and repository). To be more clear, each entry of this list is a possible simulation, and the list contains all the possible simulations. This allows the user to know the simulation capabilities of the Manager.
Alex Stancu700ae442020-12-11 16:43:10 +0200199
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300200There are 2 defined **notifications**:
Alex Stancu700ae442020-12-11 16:43:10 +0200201
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300202- **instance-changed** notification: is called by the manager whenever a change is done to any of the network functions. This contains data about the change:
203
204 - **change-status**: is a string which has the following structure: operation STATUS - info. operation can be *start*, *stop*, *mount*, *unmount*, *config* and *reconfig*; STATUS can be SUCCESS or FAILED; info can be present or not, depending on what further information is available about the change
205 - **function-type**: the function-type for the instance
206 - **name**: name of the instance that is changed
207 - **networking**: when starting and configuring an instance, this container has all the necessary networking data, such as IP and ports
208
209- **operation-status-changed** notification is called by the manager at the end of an operation:
Alex Stancu700ae442020-12-11 16:43:10 +0200210
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300211 - **status** returns the status of the operation: SUCCESS/FAILED. This status can also be statically read from the operational datastore under *nts-manager:simulation/last-operation-status*
212 - **error-mesage** an error message with details of the error (if any).
Alex Stancu700ae442020-12-11 16:43:10 +0200213
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300214Manager datastore changes mode of operation
215^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Alex Stancu5819a222019-11-13 13:58:45 +0200216
Alex Stancu96526af2020-12-02 19:17:24 +0200217Changing any value from **sdn-controller** or **ves-endpoint** containers will be propagated to all running simulated network functions, and all new ones will use the values here. In the same manner, triggering any changes to the **fault-generation**, **netconf** and **ves** settings in a network function element from the *network-function* list will automatically propagate to all running network functions of the same *function-type*. However, changing the *docker-\** leafs of the *network-function* won't propagate, as they're only used as settings for starting new network functions.
218
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300219NTS network function
220---------------------
Alex Stancu96526af2020-12-02 19:17:24 +0200221
222The NTS network function represents the actual simulated device.
223
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300224::
Alex Stancu700ae442020-12-11 16:43:10 +0200225
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300226 module: nts-network-function
227 +--ro info
228 | +--ro build-time? yang:date-and-time
229 | +--ro version? string
230 | +--ro started-features? ntsc:feature-type
231 +--rw simulation
232 +--rw network-function
233 | +--rw function-type? string
234 | +--rw mount-point-addressing-method? enumeration
235 | +--rw fault-generation!
236 | | +--rw fault-delay-list* [index]
237 | | | +--rw index uint16
238 | | | +--rw delay-period? uint16
239 | | +--ro fault-count {faults-status}?
240 | | +--ro normal? uint32
241 | | +--ro warning? uint32
242 | | +--ro minor? uint32
243 | | +--ro major? uint32
244 | | +--ro critical? uint32
245 | +--rw netconf!
246 | | +--rw faults-enabled? boolean
247 | | +--rw call-home? boolean
248 | +--rw ves!
249 | +--rw faults-enabled? boolean
250 | +--rw pnf-registration? boolean
251 | +--rw heartbeat-period? uint16
252 +--rw sdn-controller
253 | +--rw controller-ip? inet:ip-address
254 | +--rw controller-port? inet:port-number
255 | +--rw controller-netconf-call-home-port? inet:port-number
256 | +--rw controller-username? string
257 | +--rw controller-password? string
258 +--rw ves-endpoint
259 +--rw ves-endpoint-protocol? enumeration
260 +--rw ves-endpoint-ip? inet:ip-address
261 +--rw ves-endpoint-port? inet:port-number
262 +--rw ves-endpoint-auth-method? authentication-method-type
263 +--rw ves-endpoint-username? string
264 +--rw ves-endpoint-password? string
265 +--rw ves-endpoint-certificate? string
Alex Stancu700ae442020-12-11 16:43:10 +0200266
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300267 rpcs:
268 +---x datastore-populate
269 | +--ro output
270 | +--ro status enumeration
271 +---x feature-control
272 | +---w input
273 | | +---w start-features? ntsc:feature-type
274 | | +---w stop-features? ntsc:feature-type
275 | +--ro output
276 | +--ro status enumeration
277 +---x invoke-notification
278 | +---w input
279 | | +---w notification-format enumeration
280 | | +---w notification-object string
281 | +--ro output
282 | +--ro status enumeration
283 +---x invoke-ves-pm-file-ready
284 | +---w input
285 | | +---w file-location string
286 | +--ro output
287 | +--ro status enumeration
288 +---x clear-fault-counters
289 +--ro output
290 +--ro status enumeration
Alex Stancu700ae442020-12-11 16:43:10 +0200291
292
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300293Detailed information about the YANG attributes
294^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Alex Stancu96526af2020-12-02 19:17:24 +0200295
296All de details and mechanisms of the **network-function** container are explained in the **NTS Manager** section. Besides this container, there are also a couple of RPCs defined:
Alex Stancu700ae442020-12-11 16:43:10 +0200297
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300298- **datastore-populate** - calling this will trigger the network function to populate all its datastores with data based on the *config.json* defined rules
299- **feature-control** - calling this will start or stop selected features. currently available features are (features marked with * can not be stopped once started):
Alex Stancu700ae442020-12-11 16:43:10 +0200300
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300301 - **ves-file-ready** - enables VES file ready, and stats a FTP and a SFTP server on the network function
302 - **ves-heartbeat** - enabled VES heartbeat feature
303 - **ves-pnf-registration*** - enables VES PNF registration
304 - **manual-notification-generation** - enables the manual notification generation feature
305 - **netconf-call-home*** - enables NETCONF's Call Home feature
306 - **web-cut-through** - enables web cut through, adding the info to the ietf-system module
Alex Stancu700ae442020-12-11 16:43:10 +0200307
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300308- **invoke-notification** - this RPC is used for forcing a simulated device to send a NETCONF notification, as defined by the user:
Alex Stancu700ae442020-12-11 16:43:10 +0200309
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300310 - The **input** needed by the RPC:
311
312 - **notification-format** - can be either *json* or *xml*
313 - **notification-object** - this is a string containing the notification object that we are trying to send from the simulated device, in JSON format. **Please note that the user has the responsibility to ensure that the JSON object is valid, according to the definition of the notification in the YANG module.** There is no possibility to see what was wrong when trying to send an incorrect notification. The RPC will only respond with an "ERROR" status in that case, without further information. E.g. of a JSON containing a notification object of type ***otdr-scan-result*** defined in the ***org-openroadm-device*** YANG module: ***{"org-openroadm-device:otdr-scan-result":{"status":"Successful","status-message":"Scan result was successful","result-file":"/home/result-file.txt"}}***. **Please note that the notification object contains also the name of the YANG model defning it, as a namespace, as seen in the example.**
314 - The **output** returned by the RPC:
315
316 - **status** - if the notification was send successfully by the simulated device, the RPC will return a **SUCCESS** value. Else, the RPC will return a **ERROR** value.
Alex Stancu700ae442020-12-11 16:43:10 +0200317
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300318- **invoke-ves-pm-file-ready** - as name impiles, it invokes a file ready VES request, with a specified *file-location*
319- **clear-fault-counters** - clears all counters for the fault generation system. see **Fault generation** below.
Alex Stancu700ae442020-12-11 16:43:10 +0200320
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300321It is worth mentioning that the *NTS Manager* also populates the `function-type` leaf of its own *nts-network-function* module with the value `NTS_FUNCTION_TYPE_MANAGER`. This is done to help users which are connected to a NETCONF server get the data from *nts-network-function* and immediatly see what they are connected to.
Alex Stancu700ae442020-12-11 16:43:10 +0200322
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300323Network function operation
324^^^^^^^^^^^^^^^^^^^^^^^^^^^
Alex Stancu700ae442020-12-11 16:43:10 +0200325
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300326Under usual operation, the network functions are managed by the manager which will perform the operations listed below. However, if a user chooses to, it can manually start up a network function, and manage it via NETCONF (datastore and RPCs) or enviroment (see below).
Alex Stancu96526af2020-12-02 19:17:24 +02003271. Create and start Docker container
3282. Set the VES and SDN controller data via NETCONF
Alex Stancu1af4aeb2021-04-15 15:47:31 +03003293. Invoke **datastore-populate** RPC to populate the datastore
Alex Stancu96526af2020-12-02 19:17:24 +02003304. Invoke **feature-control**, enabling **ALL** the features.
331
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300332
333Network function standalone operation
334^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
335
336The network function can run in standalone mode when the **NTS_NF_STANDALONE_START_FEATURES** environment variable is not blank. The value found here determines the standalone operation, and it can be combined of two values:
337
338- datastore-populate, which populates the datastore by the rules
339- any bits of the feature-type YANG typedef (defined in nts-common.yang), which will enable the respective features.
340
341Other than this, the network-function will operate just as it would when started by the manager and it can be controller through the **nts-network-function.yang** interface.
342
Alex Stancuc7e43512021-04-27 14:40:02 +0300343The default mount point addressing method is "docker-mapping". However this behaviour can be changed by setting the **NTS_NF_MOUNT_POINT_ADDRESSING_METHOD** enviroment variable to "host-mapping". When "host-mapping" is chosen, all the host ports must be fowareded from Docker by the user when running the network function, and **NTS_HOST_IP** and **NTS_HOST_xxxx_PORT** enviroment variables should be set for the network function to know how to perform its tasks.
344
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300345Datastore random population
346^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Alex Stancu96526af2020-12-02 19:17:24 +0200347
348The datastore will be populated with random values on each of its leafs. However, certain there is some control on the population itself, which can be found in *config.json*, which is commented. Please note that the nodes below should be main nodes in *config.json*:
Alex Stancu96526af2020-12-02 19:17:24 +0200349
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300350::
Alex Stancu700ae442020-12-11 16:43:10 +0200351
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300352 "datastore-random-generation-rules" : {
353 "excluded-modules": [ //modules to be excluded from populating
354 "sysrepo",
355 "sysrepo-monitoring",
356 "ietf-yang-library",
357 "ietf-netconf-acm",
358 "ietf-netconf-monitoring",
359 "nc-notifications",
360 "ietf-keystore",
361 "ietf-truststore",
362 "ietf-system",
363 "ietf-netconf-server"
364 ],
Alex Stancu700ae442020-12-11 16:43:10 +0200365
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300366 "debug-max-string-size" : 50, //max size of string. if not set, default is 255
367
368 "default-list-instances": 1, //default number of instances a list or a leaflist should be populated with
369 "custom-list-instances" : [ //custom number of list instances. instance is schema name, and should reflect a list or a leaflist
370 {"/ietf-interfaces:interfaces/interface": 2}, //2 instances of this. if 0, list will be excluded from populating
371 ],
372 "restrict-schema" : [ //restrictions to certain schema nodes to a set of values (so no random here)
373 {"/ietf-interfaces:interfaces/interface/type" : ["iana-if-type:ethernetCsmacd", "other-value"]},
374 {"/ietf-interfaces:interfaces/interface/name" : ["name1", "name2"]}
375 ]
376 },
Alex Stancu700ae442020-12-11 16:43:10 +0200377
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300378 "datastore-populate-rules": {
379 "random-generation-enabled": true, //true or false, whether to generate random data or not (use false only if you want to load pre-generated data only and nothing more)
Alex Stancu700ae442020-12-11 16:43:10 +0200380
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300381 "pre-generated-operational-data": [ //path with files containing NETCONF data, either JSON or XML
382 "path/to/data.json",
383 "path/to/data.xml"
384 ],
385
386 "pre-generated-running-data": [ //path with files containing NETCONF data, either JSON or XML
387 "path/to/data.json",
388 "path/to/data.xml"
389 ]
390 }
Alex Stancu700ae442020-12-11 16:43:10 +0200391
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300392NOTE: pre-generated data must be in either JSON or XML format; be careful on how the file name is saved, because the simulator can only discover format based on filename (case-sensitve ".json" or ".xml")
Alex Stancu700ae442020-12-11 16:43:10 +0200393
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300394NOTE: when generating random data, the pre-generated data is loaded first, and any module affected by the pre-generated data is automatically excluded from random populating. The order in which data is added to the datastore is:
Alex Stancu700ae442020-12-11 16:43:10 +0200395
Alex Stancu1af4aeb2021-04-15 15:47:31 +03003961. pre-generated data
3972. random data
Alex Stancu700ae442020-12-11 16:43:10 +0200398
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300399NOTE: the order in which datastores are being populated:
Alex Stancu700ae442020-12-11 16:43:10 +0200400
Alex Stancu1af4aeb2021-04-15 15:47:31 +03004011. the RUNNING datastore
4022. the OPERATIONAL datastore
Alex Stancu700ae442020-12-11 16:43:10 +0200403
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300404Fault generation
405^^^^^^^^^^^^^^^^
Alex Stancu700ae442020-12-11 16:43:10 +0200406
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300407Fault generation is controlled using a combination of JSON and YANG settings. From the JSON perspective, the settings are as below:
Alex Stancu700ae442020-12-11 16:43:10 +0200408
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300409::
Alex Stancu700ae442020-12-11 16:43:10 +0200410
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300411 "fault-rules" : {
412 "yang-notif-template" : "<xml ... %%severity%% $$time$$ %%custom1%%>",
413 "choosing-method" : "random | linear",
414 "faults" : [
415 {
416 //ves mandatory fields
417 "condition" : "",
418 "object" : "",
419 "severity" : "",
420 "date-time" : "$$time$$",
421 "specific-problem" : "",
Alex Stancu700ae442020-12-11 16:43:10 +0200422
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300423 //template custom fileds
424 "custom1" : "",
425 "custom2" : ""
426 }
427 ...
428 {
429 ...
430 }
431 ]
432 }
Alex Stancu700ae442020-12-11 16:43:10 +0200433
Alex Stancu23338dd2021-04-15 16:45:34 +0300434- **fault-rules** node should be a main node in *config.json* for the respective network function in order for the fault generation to be enabled
435- **yang-notif-template** - template of the yang notification model in current network function. can be "" to disable notifications. must always be present
436- **choosing-method** - method to choose the fault. can be either *linear* or *random*, and must always be present
437- **faults** list of faults to choose from by "choosing-method". it can contain any number of fields, custom ones, along with the mandatory VES fields presented below:
438
439 - **condition**
440 - **object**
441 - **severity** - should correspond to VES defined: NORMAL, WARNING, MINOR, MAJOR, CRITICAL (case sensitive)
442 - **date-time**
443 - **specific-problem**
Alex Stancu96526af2020-12-02 19:17:24 +0200444
445On the **yang-notif-template** and on any of the fields, there are two options for creating "dynamic" content (also see example above):
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300446- **variables** - any field put in between %% will be replaced with the field's value
447- **functions** - function names are put in between $$. Available functions are:
Alex Stancu700ae442020-12-11 16:43:10 +0200448
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300449 - **time** - returns current timestamp in a YANG date-time format
450 - **uint8_counter** - a unique 8-bit counter, starting from 0, each time this function is found, the counter is automatically increased; when going above the max value, it will reset from 0
451 - **uint16_counter** - a unique 16-bit counter, starting from 0, each time this function is found, the counter is automatically increased; when going above the max value, it will reset from 0
452 - **uint32_counter** - a unique 32-bit counter, starting from 0, each time this function is found, the counter is automatically increased; when going above the max value, it will reset from 0
Alex Stancu96526af2020-12-02 19:17:24 +0200453
454It is worth to mention that the replacement is done within any field, of any field. This means that it is possible to have nested fields and functions. See example for better understanding.
455
456From the YANG perspective, one can control whether faults are enabled or disabled independently via NETCONF and/or VES, through their respective containers described in the sections above. The YANG **fault-generation** container contains:
Alex Stancu700ae442020-12-11 16:43:10 +0200457
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300458- **fault-delay-list** - a list with elements which consists of *index* (unimportant, but needs to be unique) and *delay-period* which represents the number of seconds in between the current fault and the next fault. Please note that the fault is chosen from and based on the settings esablished in *config.json*
459- **fault-count** - the status of the faults encountered by the network function; it is not present in the manager's schema
Alex Stancu96526af2020-12-02 19:17:24 +0200460
461In order to clear the **fault-count** counters, on the **network-function** module there is a **clear-fault-counters** RPC which can be called via NETCONF.
462
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300463NTS Application
464---------------
Alex Stancu96526af2020-12-02 19:17:24 +0200465
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300466Either of the two main functionalities (*manager* and *network-function*) are implemented by the same binary application. This another functionality added in v1.0.8 which implements supervisor capabilities for governing the Docker container. Besides these functionalities, the application can also do some utility functions, which can be used if the application is ran from the CLI (command line interface), along with some parameters.
Alex Stancu96526af2020-12-02 19:17:24 +0200467
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300468CLI paramters
469^^^^^^^^^^^^^^
Alex Stancu700ae442020-12-11 16:43:10 +0200470
Alex Stancu96526af2020-12-02 19:17:24 +0200471The paramers are described below:
472- --help - shows the help (also described here)
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300473- --version - describes ntsng version and build time
474- **main modes**:
475
476 - --container-init - is automatically used by Docker when building the images to install modules and enable features. Described in the next chapter. **Do not run manually**
477 - --supervisor - runs in supervisor mode (configuration is done via config.json)
478 - --manager - runs in manager mode
479 - --network-function - runs in network function mode
480 - --generate - generates data based on current settings and datastores, without commiting the data (saves to file)
481 - --test-mode - test mode for automated tests. **Do not use**
Alex Stancu96526af2020-12-02 19:17:24 +0200482
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300483- global settings changer:
Alex Stancu700ae442020-12-11 16:43:10 +0200484
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300485 - --fixed-rand - used in testing. specify a fixed value seed for the randomness
486 - --verbose - set the verbose level. can range from 0 (errors-only) to 2 (verbose), default is 1 (info)
487 - --workspace - set the current working workspace. the workspace **MUST** be writeable and should contain *config/config.json* file, otherwise a blank json file will be created
488- tools:
489
490 - --ls - list all modules in the datastore with their attributes
491 - --schema - list the schema of an xpath given as parameter
Alex Stancu700ae442020-12-11 16:43:10 +0200492
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300493Environment variables
494^^^^^^^^^^^^^^^^^^^^^
Alex Stancu700ae442020-12-11 16:43:10 +0200495
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300496Below all the available enviroment variables are listed. Please note that if a variable is not defined, it will have a default behaviour:
Alex Stancu700ae442020-12-11 16:43:10 +0200497
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300498- **NTS_MANUAL** - when defined, SUPERVISOR will not start any tasks marked as "nomanual"
499- **NTS_BUILD_VERSION** - defines build version, set by Dockerfile
500- **NTS_BUILD_DATE** - defines build date, set by Dockerfile
501- **NTS_NF_STANDALONE_START_FEATURES** - when value is not blank, it allows the network function to run in standalone mode; see "Network function standalone mode" sub-chapter for this
Alex Stancuc7e43512021-04-27 14:40:02 +0300502- **NTS_NF_MOUNT_POINT_ADDRESSING_METHOD** - either "docker-mapping" or "host-mapping"; available only when running in network function STANDALONE MODE
Alex Stancu700ae442020-12-11 16:43:10 +0200503
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300504- **DOCKER_ENGINE_VERSION** - Docker engine version, defaults to 1.40 if not set
505- **HOSTNAME** - Container hostname
506- **IPv6_ENABLED** - true/false whether IP v6 is enabled (default false)
507- **SSH_CONNECTIONS** - number of NETCONF SSH connections that should be enabled (default 1)
508- **TLS_CONNECTIONS** - number of NETCONF TLS connections that should be enabled (default 0)
Alex Stancu700ae442020-12-11 16:43:10 +0200509
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300510- **NTS_HOST_IP** - Docker host IP address
511- **NTS_HOST_BASE_PORT** - see "Starting the NTS Manager" sub-chapter
512- **NTS_HOST_NETCONF_SSH_BASE_PORT** - see "Starting the NTS Manager" sub-chapter
513- **NTS_HOST_NETCONF_TLS_BASE_PORT** - see "Starting the NTS Manager" sub-chapter
514- **NTS_HOST_TRANSFER_FTP_BASE_PORT** - see "Starting the NTS Manager" sub-chapter
515- **NTS_HOST_TRANSFER_SFTP_BASE_PORT** - see "Starting the NTS Manager" sub-chapter
Alex Stancu700ae442020-12-11 16:43:10 +0200516
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300517- **SDN_CONTROLLER_PROTOCOL** - protocol used for communication with the SDN controller (http or https, defaults to https)
518- **SDN_CONTROLLER_IP** - SDN controller IP address
519- **SDN_CONTROLLER_PORT** - SDN controller port
520- **SDN_CONTROLLER_CALLHOME_PORT** - SDN controller port for NETCONF call-home
521- **SDN_CONTROLLER_USERNAME** - SDN controller username
522- **SDN_CONTROLLER_PASSWORD** - SDN controller password
Alex Stancu700ae442020-12-11 16:43:10 +0200523
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300524- **VES_COMMON_HEADER_VERSION** - VES protocol version to report (defaults to 7.2)
525- **VES_ENDPOINT_PROTOCOL** - protocol used for communication with the VES endpoint (http or https, defaults to https)
526- **VES_ENDPOINT_IP** - VES endpoint IP address
527- **VES_ENDPOINT_PORT** - VES endpoint port
528- **VES_ENDPOINT_AUTH_METHOD** - VES endpoint auth method; see YANG definition for possible values
529- **VES_ENDPOINT_USERNAME** - VES endpoint username
530- **VES_ENDPOINT_PASSWORD** - VES endpoint password
531- **VES_ENDPOINT_CERTIFICATE** - VES endpoint certificate; not implemented at the moment of writing
Alex Stancu700ae442020-12-11 16:43:10 +0200532
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300533Supervisor functionality and configuration
534^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Alex Stancu700ae442020-12-11 16:43:10 +0200535
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300536The NTS app tries to be very little dependent on other tools. Until v1.0.8 one of these tools was supervisord, and now its functionality is embedded inside the NTS app. Now the Docker image runs the NTS app with --supervisor parameter to start the supervisor. When supervisor is ran, other main modes and their options are unavailable for that instance (the supervisor will spawn another instance for the main functionalities). Configuration of the supervisor functionality is done via config.json:
Alex Stancu700ae442020-12-11 16:43:10 +0200537
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300538::
Alex Stancu700ae442020-12-11 16:43:10 +0200539
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300540 "supervisor-rules": {
541 "netopeer": {
542 "path": "/usr/local/bin/netopeer2-server",
543 "args": ["-d", "-v2"],
544 "autorestart": true,
545 "stdout": "log/netopeer-stdout.log",
546 "stderr": "log/netopeer-stderr.log"
547 },
Alex Stancu700ae442020-12-11 16:43:10 +0200548
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300549 "sshd": {
550 "path": "/usr/sbin/sshd",
551 "args": ["-D"],
552 "autorestart": true,
553 "stdout": "log/sshd-stdout.log",
554 "stderr": "log/sshd-stderr.log"
555 },
Alex Stancu700ae442020-12-11 16:43:10 +0200556
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300557 "ntsim-network-function": {
558 "path": "/opt/dev/ntsim-ng/ntsim-ng",
559 "args": ["-w/opt/dev/ntsim-ng", "-f"],
560 "nomanual": true,
561 "stdout": "",
562 "stderr": ""
563 }
564 }
565
566The example above is the default example for a network function. The *supervisor-rules* object contains a list of tasks to run, each with their own settings. Below is a description of all parameters:
567
568- path: *mandatory field* - full path to the the binary
569- args: a list of arguments to be passed to the binary, default is no arguments
570- autorestart: this is true or false, whether to autorestart the application on exit/kill, default is false
571- nomanual: when this is true, the task **won't** be automatically ran when the **NTS_MANUAL** environment variable is present. Default is false, and using this is usually good for debugging.
572- stdout and stderr: path to redirect stdout or stderr to; if **blank**, it will be replaced by **/dev/null** for discarding. If any of the fields are not present in configuration, default value will be used (actual stdout/stderr).
573
574Docker container initialization
575^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Alex Stancu96526af2020-12-02 19:17:24 +0200576
577The NTS app is responsible for initializing the Docker container upon build. What it actually does is described below:
Alex Stancu700ae442020-12-11 16:43:10 +0200578
Alex Stancu96526af2020-12-02 19:17:24 +02005791. Install modules located in the *deploy/yang/* folder recusively
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300580 - note that if a module requires startup data (mandatory data), this can be acheived by having an **XML** or a **JSON** file with this data along the YANG file. For example, if, let's say *ietf-interfaces.yang* would require startup date, there must be a *ietf-interfaces.xml* or *ietf-interfaces.json* located in the same folder.
Alex Stancu96526af2020-12-02 19:17:24 +02005812. Enable all YANG features of the modules, unless specifically excluded
582
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300583If the initialization failes, the result is returned to the Docker builder, so the build will fail, and user can see the output. Docker initialization can be customized from the *config.json* file, as described below. The example is self-expainatory, and the *container-rules* node needs to be a main node of *config.json*:
Alex Stancu96526af2020-12-02 19:17:24 +0200584
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300585::
Alex Stancu96526af2020-12-02 19:17:24 +0200586
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300587 "container-rules": {
588 "excluded-modules": [ //excluded modules from installing
589 "module1",
590 "module2"
591 ],
592 "excluded-features": [ //excluded features from installing
593 "feature1",
594 "feature2"
595 ]
596 }
Alex Stancu700ae442020-12-11 16:43:10 +0200597
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300598Building the images locally
599---------------------------
Alex Stancu96526af2020-12-02 19:17:24 +0200600
601The `nts_build.sh` script should be used for building the docker images needed by the NTS to the local machine. This will create docker images for the Manager and for each type of simulated network function.
602
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300603The user can also directly use the already built docker images, that are pushed to the nexus3 docker repository by the LF Jenkins Job. E.g.: *nexus3.o-ran-sc.org:10004/o-ran-sc/nts-ng-o-ran-du:1.2.0*
Alex Stancu96526af2020-12-02 19:17:24 +0200604
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300605Starting the NTS Manager
606------------------------
Alex Stancu96526af2020-12-02 19:17:24 +0200607
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300608The **nts-manager-ng** can be started using the docker-compose file in this repo. The file assumes that the docker images were built locally previously.
Alex Stancu96526af2020-12-02 19:17:24 +0200609
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300610::
Alex Stancu700ae442020-12-11 16:43:10 +0200611
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300612 docker-compose up -d ntsim-ng
Alex Stancu700ae442020-12-11 16:43:10 +0200613
Alex Stancu96526af2020-12-02 19:17:24 +0200614
615Before starting, the user should set the environment variables defined in the docker-compose file according to his needs:
Alex Stancu96526af2020-12-02 19:17:24 +0200616
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300617- **NTS_HOST_IP**: an IP address from the host, which should be used by systems outside the local machine to address the simulators;
618- **NTS_HOST_BASE_PORT**: the port from where the allocation for the simulated network functions should start, if not specified otherwise sepparately (see below); any port not defined will automatically be assigned to *BASE_PORT*; **NOTE** that in order for a port to be eligible, it must be greater than or equal to **1000**:
619
620 - **NTS_HOST_NETCONF_SSH_BASE_PORT**
621 - **NTS_HOST_NETCONF_TLS_BASE_PORT**
622 - **NTS_HOST_TRANSFER_FTP_BASE_PORT**
623 - **NTS_HOST_TRANSFER_SFTP_BASE_PORT**
Alex Stancud7366392020-12-09 16:26:20 +0200624
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300625- **IPv6_ENABLED**: should be set to `true` if IPv6 is enabled in the docker daemon and the user wants to use IPv6 to address the simulated network functions.
Alex Stancud7366392020-12-09 16:26:20 +0200626
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300627In each simulated network-function the **docker-repository** leaf must be set accordingly (to the value: *o-ran-sc/*), because all the docker images that are being built locally have this prefix.
Alex Stancud7366392020-12-09 16:26:20 +0200628
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300629Starting standalone NFs
630-----------------------
Alex Stancu700ae442020-12-11 16:43:10 +0200631
Alex Stancu1af4aeb2021-04-15 15:47:31 +0300632One could start 1 instance of a simulated O-RU-FH and 1 instance of a simulated O-DU by running the `nts-start.sh` script. Pre-configured values can be set in the `.env` file.